Your search keyword '"V. A. Potachits"' showing total 3 results

1. HIGH-EFFICIENCY INFRARED RECEIVER

Author

A. K. Esman, V. I. Kostenko, N. I. Mukhurov, G. L. Zykov, and V. A. Potachits

Subjects

electrodes of the elliptical convex-concave shape, reflection losses, voltage standing wave ratio, directivity, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Recent research and development show promising use of high-performance solid-state receivers of the electromagnetic radiation. These receivers are based on the low-barrier Schottky diodes. The approach to the design of the receivers on the basis of delta-doped low-barrier Schottky diodes with beam leads without bias is especially actively developing because for uncooled receivers of the microwave radiation these diodes have virtually no competition. The purpose of this work is to improve the main parameters and characteristics that determine the practical relevance of the receivers of mid-infrared electromagnetic radiation at the operating room temperature by modifying the electrodes configuration of the diode and optimizing the distance between them. Proposed original design solution of the integrated receiver of mid-infrared radiation on the basis of the low-barrier Schottky diodes with beam leads allows to effectively adjust its main parameters and characteristics. Simulation of the electromagnetic characteristics of the proposed receiver by using the software package HFSS with the basic algorithm of a finite element method which implemented to calculate the behavior of electromagnetic fields on an arbitrary geometry with a predetermined material properties have shown that when the inner parts of the electrodes of the low-barrier Schottky diode is performed in the concentric elliptical convex-concave shape, it can be reduce the reflection losses to -57.75 dB and the standing wave ratio to 1.003 while increasing the directivity up to 23 at a wavelength of 6.09 μm. At this time, the rounded radii of the inner parts of the anode and cathode electrodes are equal 212 nm and 318 nm respectively and the gap setting between them is 106 nm. These parameters will improve the efficiency of the developed infrared optical-promising and electronic equipment for various purposes intended for work in the mid-infrared wavelength range.

Published

2016

2. DETECTOR FOR SUBMILLIMETER WAVELENGTH RANGE ON THE BASIS OF THE MAN-MADE MATERIALS

Author

A. K. Esman, V. A. Potachits, G. L. Kuleshov, and V. K. Zykov

Subjects

detector for submillimeter wavelength range, array of planar resonant elements, reflection losses, standing wave ratio, conversion efficiency, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The uncooled high-performance bolometric detector based on an array of planar resonant elements, located on the double-threaded spiral trajectory in a strictly geometrical order, with microand nanoscales is developed. It is shown that the proposed detector for submillimeter wavelength range can reach the reflection losses of –26,4 dB, the standing wave ratio of 1,1 and conversion efficiency of ~ 98 %.

Published

2015

3. Simulation of Photovoltaic Thermoelectric Battery Characteristics

Author

V. A. Potachits, A. K. Esman, G. L. Zykov, and V. K. Kuleshov

Subjects

Battery (electricity), Materials science, 020209 energy, Energy Engineering and Power Technology, 02 engineering and technology, solar radiation concentrator, temperature gradient, solar power density, comsol multiphysics, thermoelectric converter on the basis of cuinse2, Thermoelectric effect, 0202 electrical engineering, electronic engineering, information engineering, output voltage amplitude, Solar power, Renewable Energy, Sustainability and the Environment, business.industry, Photovoltaic system, Hydraulic engineering, 021001 nanoscience & nanotechnology, Engineering (General). Civil engineering (General), Engineering physics, Thermoelectric battery, Nuclear Energy and Engineering, Thermal radiation, numerical simulation, temperature stabilization, TA1-2040, 0210 nano-technology, Energy source, business, TC1-978, Voltage

Abstract

Solar radiation is an environmentally friendly and affordable energy source with high release of energy. The use of a photovoltaic thermoelectric battery makes it possible to increase the efficiency of converting solar and thermal radiation into electrical energy, both on serene and cloudy days. An original battery structure with photovoltaic and thermoelectric converters is proposed. The 3D model of the proposed photovoltaic thermoelectric battery was realized in the COMSOL Multiphysics software environment with the use of a heat transfer module. The simulation was performed for the geographical coordinates of Minsk and taking into account the diurnal and seasonal variations of both the ambient temperature and the power density of the concentrated AM1.5 solar spectrum, the maximum value of which being varied from 1 to 500 kW/m2. The dependences of the maximum temperature values of the photovoltaic thermoelectric battery and the thermoelectric converters as well as temperature gradient patterns in the thermoelectric converters have been calculated. The dependences of the maximum temperature gradient values inside the thermoelectric converters on the solar power density are obtained. The graphs of the temperature gradients inside the thermoelectric converters of the photovoltaic thermoelectric battery by concentrated solar radiation versus the time of day in the middle of July and January are provided. It is shown that the output voltage increases up to the maximum values of 635 and 780 mV, respectively, in January and in July were achieved due to the temperature stabilization of the back side of the external electrodes of the proposed device

Published

2021